Esempio n. 1
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    // Create an NBody and check it's mass
    public void CirclePrediction()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        OrbitPredictor op = TestSetupUtils.AddOrbitPredictor(planet, star);

        Assert.NotNull(op);

        double[] p_values = { 10, 100, 1000 };
        foreach (double p in p_values)
        {
            Debug.LogFormat("#### CirclePrediction p={0}", p);
            orbitU.p = p;
            TestSetupUtils.SetupGravityEngine(star, planet);
            op.TestRunnerSetup();

            OrbitUniversal predictedOrbit = op.GetOrbitUniversal();
            Assert.NotNull(predictedOrbit);
            CompareOrbits(orbitU, predictedOrbit, small);
        }
    }
Esempio n. 2
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    // Create an NBody and check it's mass
    public void InclinationPrediction()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        OrbitPredictor op = TestSetupUtils.AddOrbitPredictor(planet, star);

        Assert.NotNull(op);

        double[] incl_values = { 0, 1, 5, 10, 30, 45, 60, 90, 145, 179, 180 };
        foreach (double incl in incl_values)
        {
            Debug.LogFormat("#### InclinationPrediction incl={0}", incl);
            orbitU.inclination = incl;
            TestSetupUtils.SetupGravityEngine(star, planet);
            op.TestRunnerSetup();

            OrbitUniversal predictedOrbit = op.GetOrbitUniversal();
            Assert.NotNull(predictedOrbit);
            CompareOrbits(orbitU, predictedOrbit, small);
        }
    }
Esempio n. 3
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    // Create an NBody and check it's mass
    public void OmegaUEllipsePrediction()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        // Need a bit of incl, otherwise omegaU comes back as omegaL.
        orbitU.inclination  = 10;
        orbitU.eccentricity = 0.05;

        OrbitPredictor op = TestSetupUtils.AddOrbitPredictor(planet, star);

        Assert.NotNull(op);

        double[] ou_values = { 0, 1, 5, 10, 30, 60, 90, 180, 270, 355, 360 };
        foreach (double ou in ou_values)
        {
            Debug.LogFormat("#### OmegaUPrediction ou={0}", ou);
            orbitU.omega_uc = ou;
            TestSetupUtils.SetupGravityEngine(star, planet);
            op.TestRunnerSetup();

            OrbitUniversal predictedOrbit = op.GetOrbitUniversal();
            Assert.NotNull(predictedOrbit);
            CompareOrbits(orbitU, predictedOrbit, small);
        }
    }
    public void CirclePhaseOmegaInclined()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.inclination = 20f;

        // Try some values of phase
        // omegaU for a circle does not make sense, no axis to relate it to.
        float[] phaseValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float phase in phaseValues)
        {
            orbitEllipse.phase    = phase;
            orbitEllipse.omega_uc = 0;
            TestSetupUtils.SetupGravityEngine(star, planet);
            Debug.LogFormat("Test for phase={0} omegau={1}", phase, 0);
            orbitEllipse.Log("Initial circle:");
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("OrbitData: " + od.LogString());
            Assert.IsTrue(FloatEqualMod360(phase, od.phase, 0.05));
            Assert.IsTrue(FloatEqualMod360(0, od.omega_uc, 0.05));
            TestRV(od, planet, star, orbitRadius);
        }
    }
    public void OmegaULEllipseInclined()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.InitNBody(1f, 1f);

        orbitEllipse.inclination = 30f;
        orbitEllipse.ecc         = 0.2f;
        orbitEllipse.Init();
        orbitEllipse.ApplyScale(1f);
        orbitEllipse.InitNBody(1f, 1f);

        // Try some values of om
        float[] omegaUValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 310f };
        float[] omegaLValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 310f };
        foreach (float omegaU in omegaUValues)
        {
            foreach (float omegaL in omegaLValues)
            {
                orbitEllipse.omega_uc = omegaU;
                orbitEllipse.omega_lc = omegaL;
                TestSetupUtils.SetupGravityEngine(star, planet);

                orbitEllipse.Log("OmegaUL inclined:");
                OrbitData od = new OrbitData();
                od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
                Debug.Log("omegaU = " + omegaU + "omegaL = " + omegaL + " OD:=" + od.LogString());
                TestRV(od, planet, star, orbitRadius);
            }
        }
    }
    public void PhaseNoInclinationEllipse()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 20f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.ecc = 0.2f;

        // Try some values of om
        float[] phaseValues = { 30f, 45f, 60f, 90f, 135f, 180f, 225f, 270f, 325f, 0f };
        foreach (float phase in phaseValues)
        {
            orbitEllipse.phase = phase;
            TestSetupUtils.SetupGravityEngine(star, planet);

            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            orbitEllipse.Log("PhaseNoInclinationEllipse:");
            Debug.Log(od.LogString());
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqualMod360(phase, od.phase, 0.02));
            Assert.IsTrue(FloatEqualMod360(0f, od.omega_lc, 0.02));
            Assert.IsTrue(FloatEqualMod360(0f, od.omega_uc, 0.02));
            TestRV(od, planet, star, orbitRadius);
        }
    }
    // Check eccentricity and inclination
    public void EllipseInclination()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        float eccentricity = 0.3f;

        orbitEllipse.ecc = eccentricity;
        TestSetupUtils.SetupGravityEngine(star, planet);

        // take the velocity and check
        OrbitData orbitData = new OrbitData();

        orbitData.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
        Assert.IsTrue(FloatEqual(orbitRadius, orbitData.a));
        Assert.IsTrue(FloatEqual(eccentricity, orbitData.ecc));

        // Try some values of inclination
        float[] inclinationValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f };
        foreach (float inc in inclinationValues)
        {
            Debug.Log("====EclipseInclination====    inc=" + inc);
            orbitEllipse.inclination = inc;
            TestSetupUtils.SetupGravityEngine(star, planet);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("TEST: incl = " + orbitEllipse.inclination + " ecc=" + orbitEllipse.ecc + " od:" + od.LogString());
            Assert.IsTrue(FloatEqual(inc, od.inclination));
            TestRV(od, planet, star, orbitRadius);
        }
    }
Esempio n. 8
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    public void HyperOmegaLNoInclNoPhase()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float orbitPeri  = 15f;
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.ecc        = 1.4f;
        orbitHyper.perihelion = orbitPeri;
        orbitHyper.r_initial  = orbitPeri;

        // Try some values of om
        float[] omegaValues = { 30f, 45f, 60f, 90f, 135f, 180f, 0f };
        foreach (float omega in omegaValues)
        {
            orbitHyper.omega_lc = omega;
            orbitHyper.Init();
            orbitHyper.InitNBody(1f, 1f);
            orbitHyper.Log(System.Reflection.MethodBase.GetCurrentMethod().Name);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("omega = " + omega + " od.omega_l=" + od.omega_lc);
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqual(omega, od.omega_lc, 0.05));
            TestRV(od, planet, star);
        }
    }
Esempio n. 9
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    // Create an NBody and check it's mass
    public void EccentricityPrediction()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        OrbitPredictor op = TestSetupUtils.AddOrbitPredictor(planet, star);

        Assert.NotNull(op);

        double[] ecc_values = { 0, 0.1, 0.7, 0.9, 0.99, 1.01, 1.5, 2 };
        foreach (double ecc in ecc_values)
        {
            Debug.LogFormat("#### EccentricityPrediction ecc={0}", ecc);
            orbitU.eccentricity = ecc;
            TestSetupUtils.SetupGravityEngine(star, planet);
            op.TestRunnerSetup();

            OrbitUniversal predictedOrbit = op.GetOrbitUniversal();
            Assert.NotNull(predictedOrbit);
            CompareOrbits(orbitU, predictedOrbit, small);
        }
    }
Esempio n. 10
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    public void OmegaUNoInclination()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.InitNBody(1f, 1f);

        orbitEllipse.ecc = 0.1f;

        // Try some values of om
        float[] omegaValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float omega in omegaValues)
        {
            orbitEllipse.omega_uc = omega;
            orbitEllipse.Init();
            orbitEllipse.ApplyScale(1f);
            orbitEllipse.InitNBody(1f, 1f);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("omega = " + omega + " od.omega_lc=" + od.omega_lc);
            Assert.IsTrue(FloatEqual(omega, od.omega_lc, 0.4));
        }
    }
Esempio n. 11
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    // Check eccentricity and inclination
    public void RVtoCOEtoRV()
    {
        GameObject star = TestSetupUtils.CreateNBody(10, new Vector3(0, 0, 0));

        TestSetupUtils.SetupGravityEngine(star, null);
        NBody starBody = star.GetComponent <NBody>();

        RVpair[] rvp =
        {
            new RVpair(10,   0, 0,  0,   1, 0),
            new RVpair(10,   0, 0,  0,  10, 0),
            new RVpair(10,   0, 0,  0,  -1, 0),
            new RVpair(10,   0, 0,  0, -10, 0),
            new RVpair(-10, 10, 0, -4,   3, 0),
            new RVpair(-10, 10, 0,  4,  -3, 0)
        };

        for (int i = 0; i < rvp.Length; i++)
        {
            OrbitUtils.OrbitElements oe = OrbitUtils.RVtoCOE(rvp[i].r, rvp[i].v, starBody, false);
            Vector3d r1 = new Vector3d();
            Vector3d v1 = new Vector3d();
            OrbitUtils.COEtoRV(oe, starBody, ref r1, ref v1, false);

            Debug.LogFormat("i={0} r_in={1} r_out={2}\n v_in={3} v_out={4}\n oe: {5}",
                            i, rvp[i].r, r1, rvp[i].v, v1, oe);
            Assert.IsTrue(GEUnit.Vec3dEqual(rvp[i].r, r1, small));
            Assert.IsTrue(GEUnit.Vec3dEqual(rvp[i].v, v1, small));
        }
    }
Esempio n. 12
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    public void HyperInclination()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.ecc       = 1.4f;
        orbitHyper.r_initial = 20f;

        // Try some values of om
        float[] inclValues = { 30f, 45f, 60f, 90f, 135f, 180f, 0f };
        foreach (float incl in inclValues)
        {
            orbitHyper.inclination = incl;
            TestSetupUtils.SetupGravityEngine(star, planet);

            orbitHyper.Log(System.Reflection.MethodBase.GetCurrentMethod().Name);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("incl = " + incl + " od.incl=" + od.inclination);
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqual(incl, od.inclination, 0.02));
        }
    }
Esempio n. 13
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    public void PhaseRetrogradeEllipse()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.ecc         = 0.4f;
        orbitEllipse.inclination = 180f;

        // Try some values of om
        float[] phaseValues = { 30f, 45f, 60f, 90f, 135f, 180f, 0f };
        foreach (float phase in phaseValues)
        {
            orbitEllipse.phase = phase;
            orbitEllipse.Init();
            orbitEllipse.ApplyScale(1f);
            orbitEllipse.InitNBody(1f, 1f);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("phase = " + phase + " od.phase=" + od.phase);
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqual(phase, od.phase, 0.02));
            TestRV(od, planet, star, orbitRadius);
        }
    }
    public void KeplerVsTimeOfFlight()
    {
        // Need to make sure TOF < 1 period
        const float    mass        = 100f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        // Parabola (ecc=1.0 fails, need to investigate)
        float[] ecc_values = { 0.0f, 0.1f, 0.5f, 0.9f, 1.2f, 1.5f };
        foreach (float ecc in ecc_values)
        {
            Debug.LogFormat("======= ecc={0}  =======", ecc);
            orbitU.eccentricity = ecc;
            orbitU.p            = 10f;
            orbitU.evolveMode   = OrbitUniversal.EvolveMode.KEPLERS_EQN;
            // Evolve to position r1
            double time = 5.0;
            TestSetupUtils.SetupGravityEngine(star, planet);
            double[] r1 = new double[] { 0, 0, 0 };
            // orbitU.PreEvolve(pscale, mscale);
            // Ugh. Need to do this before call evolve, since it caches the value.
            Vector3d r0_vec = GravityEngine.Instance().GetPositionDoubleV3(planet.GetComponent <NBody>());
            orbitU.Evolve(time, ref r1);
            Vector3d r1_vec = new Vector3d(ref r1);
            // check time to r1
            double time_test = orbitU.TimeOfFlight(r0_vec, r1_vec);
            Debug.LogFormat("check r0={0} to r1={1} p ={2} after t={3} TOF => {4}",
                            r0_vec, r1_vec, orbitU.p, time, time_test);
            Assert.IsTrue(GEUnit.DoubleEqual(time, time_test, 1E-4));
        }
    }
    public void PositionForRadius()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        orbitU.inclination = 5;
        orbitU.SetMajorAxisInspector(orbitRadius);
        float r = 10.0f;

        float[] eccValues = { 0f, 0.1f, 0.9f, 1.1f };
        foreach (float ecc in eccValues)
        {
            Debug.LogFormat("======= ecc={0}  =======", ecc);
            orbitU.eccentricity = ecc;
            orbitU.SetMajorAxisInspector(orbitRadius); // updates p
            TestSetupUtils.SetupGravityEngine(star, planet);

            Vector3[] positions = orbitU.GetPositionsForRadius(r, new Vector3(0, 0, 0));
            Debug.LogFormat("pos[0]={0} pos[1]={1}", positions[0], positions[1]);
            foreach (Vector3 p in positions)
            {
                Debug.LogFormat("Position error={0}", Mathf.Abs(p.magnitude - r));
                Assert.IsTrue(GEUnit.FloatEqual(p.magnitude, r, 1E-2));
            }
        }
    }
Esempio n. 16
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    public void HyperPhaseNoIncl()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float orbitPeri  = 15f;
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.ecc        = 1.4f;
        orbitHyper.perihelion = orbitPeri;
        orbitHyper.r_initial  = orbitPeri;

        // Try some values of om
        float[] rinit_values = { orbitPeri, orbitPeri + 2f, orbitPeri + 5f, orbitPeri + 10f, orbitPeri + 20f };
        foreach (float rinit in rinit_values)
        {
            orbitHyper.r_initial = rinit;
            TestSetupUtils.SetupGravityEngine(star, planet);

            orbitHyper.Log(System.Reflection.MethodBase.GetCurrentMethod().Name);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("rinit = " + rinit + " od.r_initial=" + od.r_initial);
            // Need a bit of leeway at 0 with error
            TestRV(od, planet, star);
        }
    }
    // Check eccentricity and inclination
    public void CheckTestRV()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        orbitU.eccentricity = .25f;
        orbitU.inclination  = 25f;
        orbitU.omega_uc     = 10f;
        orbitU.omega_lc     = 20f;
        orbitU.phase        = 190f;
        orbitU.SetMajorAxisInspector(orbitRadius);

        OrbitData od = new OrbitData();

        od.a           = orbitRadius;
        od.ecc         = 0.25f;
        od.inclination = 25f;
        od.omega_uc    = 10f;
        od.omega_lc    = 20f;
        od.phase       = 190f;
        od.centralMass = starNbody;
        GravityEngine.Instance().UnitTestAwake();
        Debug.LogFormat("major-axis: {0} vs {1}", orbitU.GetMajorAxisInspector(), orbitRadius);
        Assert.AreEqual(orbitU.GetMajorAxisInspector(), orbitRadius);
        TestRV(od, planet, starNbody, orbitRadius);
    }
Esempio n. 18
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    // Check eccentricity and inclination
    public void CheckTestRV()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.ecc         = .25f;
        orbitEllipse.inclination = 25f;
        orbitEllipse.omega_uc    = 10f;
        orbitEllipse.omega_lc    = 20f;
        orbitEllipse.phase       = 190f;
        orbitEllipse.Init();
        orbitEllipse.ApplyScale(1f);
        orbitEllipse.InitNBody(1f, 1f);
        OrbitData od = new OrbitData();

        od.a           = orbitRadius;
        od.ecc         = 0.25f;
        od.inclination = 25f;
        od.omega_uc    = 10f;
        od.omega_lc    = 20f;
        od.phase       = 190f;
        TestRV(od, planet, star, orbitRadius);
    }
Esempio n. 19
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    public void OmegasEllipseInclination()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.InitNBody(1f, 1f);

        orbitEllipse.inclination = 35f;
        orbitEllipse.ecc         = 0.25f;
        orbitEllipse.Init();
        orbitEllipse.ApplyScale(1f);
        orbitEllipse.InitNBody(1f, 1f);

        // Try some values of om
        float[] omegaValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f };
        foreach (float omega in omegaValues)
        {
            orbitEllipse.omega_uc = omega;
            orbitEllipse.Init();
            orbitEllipse.InitNBody(1f, 1f);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            TestRV(od, planet, star, orbitRadius);
        }
    }
Esempio n. 20
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    public void HyperInclOmega()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.r_initial = 20f;
        orbitHyper.ecc       = 2.5f;

        // Try some values of phase
        float[] inclinationValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f };
        float[] omegaUValues      = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float incl in inclinationValues)
        {
            foreach (float omegau in omegaUValues)
            {
                orbitHyper.inclination = incl;
                orbitHyper.omega_uc    = omegau;
                orbitHyper.Init();
                orbitHyper.InitNBody(1f, 1f);
                orbitHyper.Log("Initial circle:");
                OrbitData od = new OrbitData();
                od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
                Debug.Log("incl = " + incl + " od.incl=" + od.inclination);
                Debug.Log("omegaU = " + omegau + " od.omegau=" + od.omega_uc);
                TestRV(od, planet, star);
            }
        }
    }
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    public void CirclePhaseOmegaInclined()
    {
        const float  mass         = 1000f;
        GameObject   star         = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float  orbitRadius  = 10f;
        GameObject   planet       = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);
        OrbitEllipse orbitEllipse = planet.GetComponent <OrbitEllipse>();

        orbitEllipse.inclination = 20f;

        // Try some values of phase
        float[] phaseValues  = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        float[] omegaUValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float phase in phaseValues)
        {
            foreach (float omegau in omegaUValues)
            {
                orbitEllipse.phase    = phase;
                orbitEllipse.omega_uc = omegau;
                orbitEllipse.Init();
                orbitEllipse.ApplyScale(1f);
                orbitEllipse.InitNBody(1f, 1f);
                orbitEllipse.Log("Initial circle:");
                OrbitData od = new OrbitData();
                od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
                Debug.Log("TEST: phase = " + phase + " od.phase=" + od.phase +
                          " omegaU = " + omegau + " od.omegau=" + od.omega_uc);
                TestRV(od, planet, star, orbitRadius);
            }
        }
    }
    public void OmegaUCircleInclination()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        orbitU.eccentricity = 0.0f;
        orbitU.inclination  = 5;
        orbitU.SetMajorAxisInspector(orbitRadius);
        // Try some values of om
        float[] omegaValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float omega in omegaValues)
        {
            orbitU.omega_uc = omega;
            TestSetupUtils.SetupGravityEngine(star, planet);

            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("Omega = " + omega + " od.omega_lc=" + od.omega_lc + " od:" + od.LogString());
            Assert.IsTrue(GEUnit.FloatEqual(omega, od.omega_uc, 0.1));
        }
    }
Esempio n. 23
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    public void HyperOmegaUInclNoPhase()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.ecc         = 1.4f;
        orbitHyper.perihelion  = 20f;
        orbitHyper.r_initial   = 20f;
        orbitHyper.inclination = 35f;

        // Try some values of om
        float[] omegaValues = { 30f, 45f, 60f, 90f, 135f, 180f, 210f, 275f, 355f };
        foreach (float omega in omegaValues)
        {
            orbitHyper.omega_uc = omega;
            TestSetupUtils.SetupGravityEngine(star, planet);

            orbitHyper.Log(System.Reflection.MethodBase.GetCurrentMethod().Name);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("omega = " + omega + " od.omega_uc=" + od.omega_uc);
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqualMod360(omega, od.omega_uc, 0.05));
        }
    }
Esempio n. 24
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    // Create an NBody and check it's mass
    public void NbodyCreate()
    {
        const float mass       = 1000f;
        var         gameObject = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));

        NBody nbody = gameObject.GetComponent <NBody>();

        Assert.AreEqual(nbody.mass, nbody.mass);
    }
Esempio n. 25
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    private void DoTestForPhase(double fromPhase, double toPhase)
    {
        const float    mass        = 1000f;
        const bool     reverse     = false;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        float          orbitRadius = 20f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 0f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        orbitU.phase = fromPhase;
        orbitU.SetMajorAxisInspector(orbitRadius);

        orbitRadius = 30.0f;
        GameObject     planet2 = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 0f, orbitRadius);
        OrbitUniversal orbitU2 = planet2.GetComponent <OrbitUniversal>();

        orbitU2.phase = toPhase;
        orbitU2.SetMajorAxisInspector(orbitRadius);

        GravityEngine.Instance().UnitTestAwake();
        GravityEngine.Instance().AddBody(star);
        GravityEngine.Instance().AddBody(planet);
        GravityEngine.Instance().AddBody(planet2);
        GravityEngine.Instance().Setup();

        Debug.Log("Find transfers");
        OrbitData        fromOrbit = new OrbitData(orbitU);
        OrbitData        toOrbit   = new OrbitData(orbitU2);
        LambertUniversal lambertU  = new LambertUniversal(fromOrbit, toOrbit, true);

        Assert.AreNotEqual(lambertU, null);
        double time = 0.8f * lambertU.GetTMin();

        lambertU.ComputeXfer(reverse, false, 0, time);
        LambertBattin lambertB = new LambertBattin(fromOrbit, toOrbit);
        int           error    = lambertB.ComputeXfer(reverse, false, 0, time);

        Assert.AreEqual(error, 0);
        Assert.AreNotEqual(lambertB, null);
        Assert.AreNotEqual(lambertB.GetTransferVelocity(), null);
        Debug.LogFormat("initial velocity {0} vs {1}", lambertU.GetTransferVelocity(), lambertB.GetTransferVelocity());
        Debug.LogFormat("initial velocity mag {0} vs {1}",
                        lambertU.GetTransferVelocity().magnitude, lambertB.GetTransferVelocity().magnitude);
        Debug.LogFormat("final velocity {0} vs {1}", lambertU.GetFinalVelocity(), lambertB.GetFinalVelocity());
        Debug.LogFormat("final velocity mag {0} vs {1}",
                        lambertU.GetFinalVelocity().magnitude, lambertB.GetFinalVelocity().magnitude);
        // best can do for 180 degree case is E-2 accuracy on the magnitude. Not sure why...seems too big
        Assert.IsTrue(GEUnit.DoubleEqual(lambertU.GetTransferVelocity().magnitude,
                                         lambertB.GetTransferVelocity().magnitude,
                                         1E-2));
    }
Esempio n. 26
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    // Create an NBody and check it's mass
    public void CircleA()
    {
        const float mass        = 1000f;
        GameObject  star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        const float orbitRadius = 10f;
        GameObject  planet      = TestSetupUtils.CreatePlanetInOrbit(star, 1f, orbitRadius);

        // confirm planet is in correct location
        Assert.AreEqual(Vector3.Distance(planet.transform.position, new Vector3(10f, 0f, 0)), 0);
        // take the velocity and check
        OrbitData orbitData = new OrbitData();

        orbitData.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
        Assert.AreEqual(orbitData.a, orbitRadius);
        Assert.AreEqual(orbitData.omega_uc, 0f);
    }
    // Check eccentricity and inclination
    public void EccentricityInclTest()
    {
        const float    mass        = 1000f;
        GameObject     star        = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        NBody          starNbody   = star.GetComponent <NBody>();
        const float    orbitRadius = 10f;
        GameObject     planet      = TestSetupUtils.CreatePlanetInOrbitUniversal(starNbody, 1f, orbitRadius);
        OrbitUniversal orbitU      = planet.GetComponent <OrbitUniversal>();

        float eccentricity = 0.3f;

        // MUST reset the scale after ecc is changed, since -> p
        orbitU.eccentricity = eccentricity;
        orbitU.SetMajorAxisInspector(orbitRadius);
        TestSetupUtils.SetupGravityEngine(star, planet);

        // Try some values of inclination and ecc
        float[] eccValues         = { 0f, .1f, .2f, 0.5f, 0.9f };
        float[] inclinationValues = { 0f, 30f, 45f, 60f, 90f, 135f, 180f };

        foreach (float inc in inclinationValues)
        {
            foreach (float ecc in eccValues)
            {
                Debug.Log("====EccentricityInclTest====    ecc=" + ecc + " incl = " + inc);
                orbitU.inclination  = inc;
                orbitU.eccentricity = ecc;
                orbitU.SetMajorAxisInspector(orbitRadius);      // can only use for ellipses
                TestSetupUtils.SetupGravityEngine(star, planet);
                OrbitData od = new OrbitData();
                od.SetOrbitForVelocity(planet.GetComponent <NBody>(), starNbody);
                Debug.Log("TEST: incl = " + orbitU.inclination + " ecc=" + orbitU.eccentricity + " od:" + od.LogString());
                Debug.LogFormat("Check ecc: {0} vs {1}", ecc, od.ecc);
                Assert.IsTrue(GEUnit.FloatEqual(ecc, od.ecc, 1E-3));
                float axis = (float)orbitU.GetMajorAxisInspector();
                Debug.LogFormat("Check axis: {0} vs {1}", axis, od.a);
                Assert.IsTrue(GEUnit.FloatEqual(axis, od.a, 1E-3));
                Debug.LogFormat("Check incl: {0} vs {1}", inc, od.inclination);
                Assert.IsTrue(GEUnit.FloatEqual(inc, od.inclination, 1E-3));
                // TestRV(od, planet, starNbody, orbitRadius);
            }
        }
    }
Esempio n. 28
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    public void HyperBasic()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        // Try some values of om
        float[] eccValues = { 1.1f, 1.3f, 2f, 2.2f, 3f, 10f };
        foreach (float ecc in eccValues)
        {
            orbitHyper.ecc = ecc;
            orbitHyper.Init();
            orbitHyper.InitNBody(1f, 1f);
            orbitHyper.Log(System.Reflection.MethodBase.GetCurrentMethod().Name);
            OrbitData od = new OrbitData();
            od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
            Debug.Log("ecc = " + ecc + " od.ecc=" + od.ecc);
            // Need a bit of leeway at 0 with error
            Assert.IsTrue(FloatEqual(ecc, od.ecc, 0.02));
        }
    }
Esempio n. 29
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    public void HyperInclOmega()
    {
        const float mass       = 1000f;
        GameObject  star       = TestSetupUtils.CreateNBody(mass, new Vector3(0, 0, 0));
        GameObject  planet     = TestSetupUtils.CreatePlanetInHyper(star, 1f);
        OrbitHyper  orbitHyper = planet.GetComponent <OrbitHyper>();

        orbitHyper.r_initial = 20f;
        orbitHyper.ecc       = 2.5f;

        // Try some values of phase (incl=0 covered by another test)
        float[] inclinationValues = { 30f, 45f, 60f, 90f, 135f, 180f };
        float[] omegaUValues      = { 0f, 30f, 45f, 60f, 90f, 135f, 180f, 210f, 320f };
        foreach (float incl in inclinationValues)
        {
            foreach (float omegau in omegaUValues)
            {
                orbitHyper.inclination = incl;
                orbitHyper.omega_uc    = omegau;
                TestSetupUtils.SetupGravityEngine(star, planet);
                Debug.LogFormat("Test for i={0} omegaU={1}", incl, omegau);
                orbitHyper.Log("Initial circle:");
                OrbitData od = new OrbitData();
                od.SetOrbitForVelocity(planet.GetComponent <NBody>(), star.GetComponent <NBody>());
                Debug.Log("OrbitData: " + od.LogString());
                TestRV(od, planet, star);
                Debug.Log("incl = " + incl + " od.incl=" + od.inclination);
                Debug.Log("omegaU = " + omegau + " od.omegau=" + od.omega_uc + " od.omega_lc=" + od.omega_lc);
                if (incl != 180f)
                {
                    // 180 comes back as omegaL = omegaU = 180, but TestRV is ok
                    Assert.IsTrue(FloatEqual(incl, od.inclination, 0.02));
                    Assert.IsTrue(FloatEqualMod360(omegau, od.omega_uc, 0.02));
                }
            }
        }
    }